Regulating means



July 25, 1933. H. B; MORRILL REGULATING MEANS s sheets-sheet 2 Filed Feb. 16, 1932 Inventor; 1f erbert fl, M017?! July 25, 1933.

H. B. MORRILL RBGULATIHG HEARS Filed Feb. 16, 1932 5 Sheets-Sheet 3 a r, t mum w ww M 3% t M J M July 25, 1933. H. B. MORRILL REGULATING MEANS Filed Feb; 16, 1932 5 Sheets-Sheet 4 v Iva/e72 for; Herbert BNO? M ni W" r Atts July 25, 1933. H. B. MORRlLL REGULATING HEARS Filed Feb. 16, 1932 5 Sheets-Sheet 5 I72 wanton" fle fiert No If ZZZ, Q7

Patented July 25, 1933 v 1 I I UNITED STATES PATENT HERBERT B. MOR1tILL, O3-F MASSACEU SI ETTS i I Rinse-Lann e MEANS Application filed lebruary 16, 1932. Serial No. 533,279. r

This invention relates to pressure actuated single pivot; The arm or arms may have control apparatus of the type commonly ema plurality of tracks-thereinto receive con- I ployed for controlling valves, dampers, etc., nections'with separate control elements,these and in general provides improved apparatus tracks being arranged so that the connectionsof this character which may be employed to may be disposed at difierent points to permit regulate and properly position a plurality of the movement off-the control elements through control elements, such as the damper, draft paths of different lengths in a suitably "00- closure, fuel supply line, fluid outlet pipe, or ordinated manner. When desired, the conthe like, of a'single pressure generating unit trol arm erarms maybe associated with'suitor which may be employed to regulate such able cam means so that the rate of movement 69 in one direction and then in the other with to permit the proper regulation of elements 7 able control arm or arms swinging about a spectively;

control elements associated with a plurality of certain or all of thecontrol elements "is of pressure generating units operating tonot uniform but may vary in proportion to gether. V r the rate of movement of the common control 7 My United States Patent No. 1,668,655 member in different parts of the respective 15 filed May 8, 1928, discloses a regulator which paths of the elements and member. If de-v I is adapted eil'ectively'to regulate a suitable sired, a master regulator'- or control member, control element associated with a pressure may be movable'in response to a common generating unit or the like without objectionpressure generated by a plurality of units, able tendency toward over-regulation, first anu suitable. control means may be provided 1 3 consequent fluctuations in pressure and loss :associated with the respective units, thereby in efliciency, and thus automatically to mainto permit the pressure'to remain at a desired tain the pressure in a fluid containing champoint, while permitting uniform, economical ber, such as the fluid outlet duct, at a desired operating conditions in the separate units. 7 25 point. In accordance with that invention In the accompanying drawings, 1 have the ratio of movement of the valve or other shown certain preferred embodiments of my control element with respect "to the travel of invention as illustrative of a large number the piston of the actuating motor in the 0011- of equivalent mechanisms which might be trol apparatus may be varied through a wide devised to employ the same general'principles V 30 range and with great accuracy. The present and fall Within the scope ofthe appended S0 invention not only permitsthese advantages claims. i to be maintained, but also a-ii'ords'a wider In the drawings: J I 7 g range of utility for apparatus of this char- 'Fig. 1 is a side elevation, somewhat diaacter, permitting acommon control member grammatic in character, partly in vertical 2 :55 to actuate or regulate av plurality. of control section and partly broken away ,illustrating elements, these elements, for example,yhav-v the preferred control mechanism as applied ing' diflerentvvelocities, rates of acceleration, to a pressure reducing valve of a welhknown or extentsof movement between the eXtremitype; g j I ties of their respective paths and yet being Fig. 2 is a similarjview showing the arg i 40 suitably. coordinated so that they may be rangement of connections between thelinkregulated in relation to each other to mainage portion of the mechanism and various eletain the pressure within'thefiuid Chamher ments associated with a pressure generating and /or'generated by the unit or units at the unit optimum or desired point with maximum op- Fig. '3 is a section through the control arm 45 erating economy. indicated by line 33 of Fig.2; In order to permit these desirable results, Figs. 4; and 5 are-diagramn'iatic views il- I may provide a motor having a fluid actulustratin the linkage occupying positions ated piston therein, thepiston being concorresponding to the mid point, and the lower nected with suitable linkage including a movend or the path of the control member," re- Figs. 6, 7 and 8 are similar diagrammatic u of an optional type of linkage;

I Fig. 9 1s a diagrammatic view of regulator apparatus wherein a master regulator is views il ustratin similar various positions employed to control the operation of a pluthrough which steam or other fluid flows from a pressure generating unit or boiler, and the numeral 2 designates an ad oining section of the pipe, illustrative of and herein- 7 after referred to as the chamber, in which the pressure is automatically to be controlled. A valve casing 3 is interposed between and connected to the pipe sections 1 and. 2. For purpose ofdiscussion, the fluid may be assumed to Flor from the section 1 tothe section 2, and the valve casing may contain a valve 1 of balanced type having actua stem 5 connected by a shackle 6 to a swin valve lever 7, the latter having one end articulated to the upper end of rock arm 8 that is pivotally mounted upon valve cas' a 3. An adjustable counterweight 9 is carried by the lever 7. 'The valve assembly just described is employed for a convenience of description and illustration as being typical of a control element which may be actuated by apparatus of the character disclosed herein. Such elements, for example, may be pressure reducing valves, dampers, stoker controlling devices, draft closures or fuel supply line valves, which. may be referred to generically as control elements and which by their movement either directly or indirectly tend to cause a variation in pressure within a fluid containing pipe or chamber with which they are immediately or remotely associated. Thus the pressure within the pipe section 2 in the accompanying drawings is varied by the posi tion of the control element or valve 1.

The numeral 10 indicates generally the control mechanism which regulates the position of control element 41, this mechanism comprising moving parts, preferably mounted upon a suitable supporting plate or frame 11. ldountedupon or forming a part of this frame is a housing 11 providing a chamber 11 which is closed on one side by a movable wall 12, such as a flexible diaphragm or a reciprocating piston; The chamber 11 is connected by means of a pipe 13 to the section 2 above referred to, it being under stood that the controlling apparatus may be located at any convenient and readily accessible point remote from the control element.

The diaphragm 12 may be provided with a' stem 14; terminating in a knife edge 15, bearmg against the lower part of a-lever 16 ata point closely. ad acent the fulcrum or fixed pivot 17 of the lever. 'A weight 18 may be secured to the outer end of lever 16 to provide a resistance to upward. movement of the lever in response to the pressure acting upon diaphragm 12.

A cylinder 19 may be attached to the frame The cylinder is provided 7 30 to which pressure fluid, forjexample water or steam, may be admitted from a suitable source and is also provided with anexhaust port 32 at its upper end. An exhaust passage 31 leads from the lower end of the chamber in the valve housing to the exhaust port. Valve 29 is provided with a stem connected by a link 34 to the lever 16, the partsbeing so arranged that the supply port 30 is connected to the port 27 communicating with the upper part of the cylinder 19 when the lever 16 drops, while the pressure fluid is admitted to the other. end of the cylinder through the passage 24 when the lever 16' rises. 1

The frame 11 is provided with a fixed bearing pin 36 for a rock arm- 37, to which one end of a link 38 is pivotally connected. The opposite end of link 38 is. pivotally connected to the upper end of piston rod 22. The frame 11 also is provided with a bearing element 10 affording a pivotal support for a segmental lever comprising the lower member 41, the outer member 12, and the upper arcuate member 43. This segmental lever is pivotally connected at 4A to the intermediate part of link 38. A slide block 45 is slidably mounted upon the arcuate member l3 of the segment lever, and a screwthreaded rod 18 is pivotally secured at one end of the slide block, the opposite end of the rod passing through abracket 4'7 mounted upon the end of the arcuate arm 43. An internally threaded hand wheel may engage the rod 43 so that the position of the block 15 may be varied by movement Ofjthe hand wheel.

A radius link 19 is pivotally connected to the block 15 and to the control arm 51. A pintle connection 50 between the radius link and lever 51 is substantially at the center of curvatureof the arcuate member 13, so that the block 15 may be moved along the arcuate member withoutchanging the relation between arm 51 and the segment lever. The

arm 51 is pivotally supported'at- 52 upon the frame 11 and its free end is provided with suitable means forconnection to the control element or elements. H

The lowermember 41 of the segment lever preferably is provided with an extension pro jecting beyond the pivot 40 and the upper end'of a link 69 is connected .to this extension. The lower end. of link 69 is pivotally connectedto a rocker that swings upon awfixed support projecting from frame 11. This "rocker is provided with an extension arm 71 conveniently formed as j a screwthrcaded rod adjustable longitudinally of the rocker, and the arm-71 is provided at its end with a nut 7 2 in which a second screw-threaded rod 73 isadjustably mounted; The-upper end of rod 7311s connected by a tension spring 74.to astirrup on-lever 16. n

For convenience of illustration,; I have shown andexplained in the foregoing description apparatus of the typedisclosed in my prior Patent No. 1,668,655,1tbein'g understood, however, that the 6 details of this apparatus may be varied to suit different con-,

ditions. Thearm 51 may differ, however, from that illustrated in my prior patent in having a track portion or portions 54 preferably arcuate in form and slidably receiving a connector or connectors 55,'suitable markings ,56, being provided upon the track portion of the lever to permit the adjustable positioning of the connector or connectors 55, as desired. f

, Referring to Fig; 3, it is evident that a plurality of connectors 55 may be received in corresponding grooves in the track portion 54,

each of the connectors being secured to flexible elements 66,'such,as cables or chains, which extend oversuitable pulleys 67 tothe respective control elements. Thus, .for' example, as shown in Fig. 1, one element 66 may be connected to the end of the'valvelever 7, while, as shown in Fig. 2, one of the elements 66' is thus connected to thevalve-lever 7 a second connecting member 66 is secured to a swinging arm 60that is associated with the'swinging draft vanes 61, while a third element 66 is operably connected to a damper 70.

the others, their linear velocities may be made to differ relatively to one another as the part 51 moves in response to a movement of the piston 21, and thus theseveralcontrol I tively rapid rate.

Since the position of 'ea ch of the cons nectors 55 may be varied independently of and damperare opened, the pressure in'cham her or pipe section-2 gradually-increasesand that the pressure decreases as theseelements are closed; Assuming that the partsare'substantially'in their closed positions or positions to be substantially atmospheric and the lever 16 under the action of weight 18 hasmoved to its'lowest position, the valve 29 being in:

such a position as to permit pressure-fluid from the port ecu) enter the upper end of cylinder 19. As the pressure fluid enters the upper end ofthe cylinder, the piston 21 is forced downwardly, andif it malres a 'full stroke it moves the" control arm 51- from the position shown in Fig. 1 to that showndn Fig. 5, moving through the intermediate position illustrated in Fig. '4. Such a downward movement of the lever 51 raises the damper 70 to permit combustion to take place 1n the pressure generating unlt at a. rela- As soon as pressure builds up in the pipe section 2, the diaphragm v 191 tends tcl rise,

and in response thereto the lever 16 is moved from its lowest positionand reaches a point where 1t'1s effective 1n moving valve29 upwardly to cutofffiuid supply to-the upper end of cylinder .19. fPiston 21 is normally brought to "rest before it completes its full downwardstrokm-but if the pressure in pipe '2 continues toincrea-se, the lever 16 will continue to rise and will permit the ,valve'19 to f move to sucha point that it admits pressure fluid into the lower end of-cylinder 19 so that the piston 21 is lifted and through the connections described moves the valve-4',the

vanes 61, anddamper 70 back toward their respective, closed positions or positions. of

minimum opening. H The spring 74 may over-sensitiveness of the control mechanism, although this feature of the mechanism may be provided to prevent be omitted in certain installations." When this feature is employed, the upward movement of piston 21 corresponding to an upward movement of lever 16 causes the 'eXtensionv of lever 41 to rise and lift the link 69, thus tensioning spring 7 4. The resistance to upward movement of lever 16 thereby is ncreased so that subsequent increments of pressure in thecha-mber 11 are opposed'by progressive ly greater resistances acting on lever 16. vThe operation thus is gradually slowed down so that the control elementis not moved to an i excessive extent.

The positionof a' connector 55 uponithe control elements and thejrelativelengthfof the pathsof movement of'the respective elee ments 55 may be determined inrelation to the length of movement of the respective control elements. The block 45 may be, ad

or degree of movement of the connecting elements 66, while the adjustment of the block 45 permits variation of the movement of all of the elements, the proportional relations between the paths of same,'however, remaining fixed.

In Figs. 6,7-and'8, I have illustrated an optional embodiment of the invention where.

in the control arm 51 is pivotally connected I to a link 75 that in turn is pivotally connected to a swinging cam arm 7 6, the end of which is provided with a cam groove 77 engaging a fixed or adjustably fixed cam pin or-roller 7 8 mounted upon the frame 11. V In this embodiment of the invention, .a radius link 49 (corresponding to the link 49 of Fig. 1) con 'nects'the slide block 45-with cam arm 76.

The groove 7 7 maybe shaped to provide any desired rate of acceleration in the movement of the lever 51 in response to a given movement of the'control member or piston 21. A

link 79 is pivotally connected as designated by numeral 80 to the intermediate part of cam lever 76 and has a pivotal connection 81 with the frame 11. With this arrangement the lever 51 rather than having a uniform increment'oi': movement for a corresponding increment of movement of the piston may move diiierent distances in differentparts of its path in'response tothe movement of the piston 21 through equal distances.

Fig. 9 illustrates a further development of my invention which may be employed ewith a plurality of pressure generating units operated together to provide pressure fluid for one chamber. Thus, for example, this arrangement may be employed'with a plurality of boilers connected to a common steam pipe having a valve 4 of the type illustrated in Fig. 1, this valve being associated with the master regulator M which may be of the type shown in Fig. 1 having a piston rod 22 connected to a lever 38 and having a segmental member including an arcuate portion 43, a radius link 49 and a swinging control arm 51'. The latter may be connected by a plurality of flexible connections 66- to the control elements, such as the dampers, draft i to the valve 4 which regulates the fluid pressure in a pipe or chamber 2 which receives 1 fluid from all of the boilers. 7

- A plurality of secondary regulating de-. vices, designated by the reference character S,-S., etc., maybe associated withthe maslows 96 is connected-by a rod 97 to a rock arm I 98. I

A weight 100, or a spring if preferred, may

be employed to-counteract the expansion of each bellows 96. A valve rod 84 is connected to eac'hrock arm 98 in such a way that expansion of the bellows 96 (due to the'upward movement of the right hand end of the arm 88 of the master regulator and upward move.- ment of its piston rod 22) results in the up-- ward movement of the valve 29 in 'eachsecondary regulator. These valves 29? maybe of the same general type as the valve 29 shown in Fig. 1 andmay be similarly associated with a cylinder (not shown) having a piston from which a connecting rod 22 projects. Each rod 22 is connected to a lever 38 corresponding tothe lever 38 and pivoted to a segmental member 48 connected by a link '49 to aswinging control arm 51 having a track portion 54 that is connected by flexible elements 66 to the various control elements of one boiler, for example,in the manner illustrated in Fig. 2. The end of each rock arm 98 is connected by a link withthe outer end of the arm 41 of the segmental member of the corresponding. secondary regulator.

In the operation of this apparatus the parts are so arranged that the master regulator is effective through the hydraulic system in causing the control arms 51 of the secondary regulators to movewith the control arm 51 of the master regulator. Thus, when the pistonrod 22 of the master regulator rises, the arm cylinder of the secondary regulator to lift the piston and piston rod 22 thereof, thus causing a movement of the lever 38 and control arm 51 corresponding to that'of members 38 and 51 respectively of the master regulator.

The track portion 54 of each of the control arms 51 may be connected by connecting elements 66 to the control elements of a different boiler so that each boiler may be operated under conditions exactly similar to those under which the boiler controlled by the master regulatoris operating, Itis evident that instead of the linkage arrangement-shown in Fig. 1,.the control arms '51; and 51 1 might be associated with cam arms of the type shown in Figs. 6, 7 and 8 and that in either case the synchronous operation of the regulators would be similar.

' Fig. 10 illustrates an optional arrangement of control arms designated by reference characters 51 these control arms being operated by a common link 49 pivotally connected to;

the arms, as designated by reference character 50* and pivotally mounted on the frame Thus,

11, as designated by numeral 52. rather than providing a single arm '51, as

shown in Fig. 3, a plurality of arms 51 may be provided with track portions so that the exact number ofarms employed in any regulator may be varied in accordance with the number of control elements which are'to be regulated, at the same time permitting the to arrangetwo connectors 55 in thesanieconcomitant use of tracks of different curvature or contour. It is evident that an ar-v rangement of this type may also be employed a in conjunction with the arrangement shown in Figs. 7, 8 and 9 or in place of either the control lever 51or the controllev'ers 5l flof Fig. 9. In certain cases it may be desirable track of a single control arm but at different portions of thearm to afford regulation of a" control element under different conditions,

and I 'contemplatesuch an arrangement as being within the purview of this invention.

Itisevident that this invention permits the employmentfof anauto maticcontrol apparatus to perform any desired number or substantially all of thefcontrol functions conditions may prevail and so that the various control elements associated with each unit may be automatically Vmovedin unison atra desired optimum point. I v

It should be understoodthat the present disclosure is, for the purpose of illustration only? and that :this invention includes all modifications and equivalents which rifallf within the scope of the appended claims,

7 I claim: i

1, Apparatus of prising a chamber containing fluid under pressure, a plurality of control elements mov able to affect the pressure in said chamber,

amaster regulator having a common con trol member movablein response to pressure variations in said"v chamber, connections between said control member and certain of the; class; described $01119 said control elements arranged automatically to move the elements to maintain the pressure in said chamber atadesired point, a secondary regulator includinga secondary control member, secondary connections between said- 1 7 secondary conti'ol'member and certain of said I control elements, and connecting means between the firstenamed regulator and said sec ondary regulator causing the synchronous operat onof the commoncontrol'member and a the secondary control member and the simul-- taneo'us movementof the control elements connected to the first-named regulator and 90, 2. Apparatus of the class described como to thesecondary regulator.

prising a chamber containingfluid under pressure, a plurality of control elements inovi able toaiie'ctthe pressure in said chamber, a master regulator hav ng a common control member movable in response to pressure variations in saidehamber,connectionsbetween;

said controlimember and certain of'said con trol elements arranged automaticallytomove] the elements to maintain the pressure in said ary control memberandcertainof said con- "L0 chamber at a desired point, a secondaryregu- I lator lIlClllCllllg a secondary control member, secondary connectionsbetween said secondsociated with the first-named regulator and i i a contractible-expansible part. associated with v the secondary regulator, said system causing the synchronous operationof the common control member and the secondary con-' trol member and the simultaneous movement of the control elements connected to-the firstv named regulator and to these'condaryregw a 7 a H I lator.

3. Apparatus of the classdescribed com prising chamber containing fluid under pressure,- a plurality of movable control ele-' ments, each operable'to 'aflect'the pressure in a said chamber, regulatingmeans to maintain said pressureat a desiredpoint, said means comprising apart movable in response to va- 1 riations in pressure in said chamber, acylinder, a piston in said cylinder, valve mecha- I v nismop'erable by movement of said part to to maintain the pressure of fluid therefrom vary'the; admission of fluid to saidcylinder piston rod 'seguredto the piston, linkage opand thus tovary theiposition of the piston, a I

and having its other end articulated" to a swinging'supporna swinging. member pivotally connected to a fixed supporting part and to the intermediate part of said lever, a

link pivotally connected to said member, swinging means articulated to the opposite end of said link, and a plurality of flexible connections secured to said swinging means and connected "to said control elements,

whereby the movement of said swinging means is effective simultaneously to vary the position of the control elements.

4. Apparatus of the classdescribed compris ing a chamber containing fluid under pres sure, a plurality of movable control elements,

end articulated to a swinging support, a

swinging member pivotally connected to a fixed supporting part and to the intermediate part of said lever, a link pivotal-1y connected to'said member, swinging means articulated to the opposite end'of said connecting' link, and a plurality of flexible connections secured to said swinging means and connected to said control elements, whereby the movement'of said swinging means is e'fl'ective simultaneously'to vary the position of the control elements, said swinging means including track portions upon which the connections maybe adju'stably fixed to permit individual variation in the length I of the paths of movement of said connections in response to a given movement of the piston.

5. Apparatus oftie class described comprising a chamber containing fluid under pressure, a plurality of movable control elements, each operable to-affect the pressure in said chamber, regulating means to maintain said pressure at a desired'point, said means comprising a part movable in response to variations in pressure in said chamber, a cylinder, a piston in said cylinder, valve mechanism operable by movement ofsaid part to vary the admission of fluid to said cylinder and thus to vary theposition of the piston, a piston rod secured to the piston, linkage operable by said rod, said linkage including a le verhaving one end articulatedto the rod and having its other end articulated toa swinging support, a swingingmember pivotally con-' nected to a fixed supporting part and to the intermediate part of said lever, a link pivotally connected to said member, swinging means articulated to the opposite end of said link, a

plurality of flexible connections securedto said swinging means and-connectedjto said control elements, whereby the movement of said'swinging-means is effective simultaneously to vary the position of the control ole-1 ments, said swinglng member havmg an arou-- ate portionwlth the center of its curvature" substantially at'the axis of the connection'between the link and said swinging means, and a slidable part upon said arcuate port on piv- I otally engaging the connecting rod to permit the position of the rod in relation to'the swmging member to be varied, thus to "vary the relative'accelerations of motion of the swingingmeans'and of all of the control elements in response to a given movement of the piston. V f v 6. Apparatus of the class described comprising a chamber containing fluid under pressure, a master regulator including a control member movable in response to variations in pressure in said chamber, a part co-nnected to said control member and movable in response thereto, a control arm operably associated with said part, connecting element-s associated with said control arm and extending therefrom, aplurality of control elements actuated by said connecting elements to affect ments, each operable to affect the pressure in said chamber, regulating means to maintain said pressure at a desired point, said means comprising a part movable in response to variations in pressure in said chamber, a cyl inder, a piston in said cylinder, valve mech- 1 anism operable by movement of said part to vary the admission of fluid-to said cylinder and thus to vary the position of the piston,- a

piston rod secured to the piston linkage-operable by said rod, said linkage including ,a'

lever having one end articulated to the rod and having its other end articulated to a swinging support, a swmgmgmember plvotally connected to a fixed supporting part and to the intermediate part of said lever, a link pivotally connected to said member swinging means articulated to the opposite end of said link, a plurality of flexible connections se cured to said swinging means and connected to certain of-said control elementsfasecondary regulator including a secondary pis ton and secondary piston rod securedtherenected to a fixed supporting part and to the intermediate part of sald secondary lever, a

to, a secondary linkage operable" by said secondary piston rod and including a secondary lever having one end articulated to the secondary piston rod and havingits other end articulated to asecondary swinging support, a secondary swinging member pivot-ally consecondary link pivotallyv connected to said secondary swingingmember', swinging means articulated to theopposite end of said secswinging member, whereby the movement of the secondary swinging means is similar to that of the first-named swinging means due to the synchronous movement of the first-- named piston and the secondary piston and due to the llnk connecting the rock arm and said secondary swinging member.

' 8. Apparatus of the class described com prising a chamber containing fluid under pressure, a lurality of movable control ele-- ments,each eing operable to afiect the pressure in said chamber, a master regulatorand a secondary regulator, each regulator includ-, ing a cylinder, a piston, valve mechanism operable 'toivary the admission of fluid to the cylinder and thus to vary the position of the piston, a piston rod secured to the piston, linkage operable by said rod, said linkage including a control arm, connections'extending from the control arm of the master regulator to certain of said control elements and'connections extending from the control arm of the secondary regulator to other of said control elements, means associated with'the valve mechanism of the master regulator to reguvariations in vsaid chamber, and connecting means between the master regulator and the valve mechanism of the secondary regulator operable to cause the movement of the valve mechanism of the secondary regulator in synchronism with the movement of the valve mechanism of the master regulator.

- ERBE TYB. o RILn. f

late said mechanism inresponse to pressure 7 

